JPH05176991A - Portable type dialysis device - Google Patents

Abstract

PURPOSE:To enable the execution of a dialysis even in a place where a water feed equipment is unavailable by installing the dialysis device and a water feed device for this device respectively on a truck to constitute these devices movably and installing a circuit changeover means, for selectively connecting the dialysis device and a water feed tank to another water feed equipment, to the water feed device. CONSTITUTION:This portable type dialysis device is constituted movably by installing the dialysis device 2 for removing waste materials from the inside of blood and the water feed device 3 for supplying water to the dialysis device 2 respectively on the truck 4. A 1st circuit changeover means 17 for selectively connecting the dialysis device 2 to the water feed tank 11 and another water feed equipment 30 on the outside of the truck 4 is disposed in the water feed device 3. Namely, the water feed device 3 is disposed with a pump 15 in a supply circuit 14 for communicating the 1st circuit changeover means 17 and the water feed tank 11. This supply circuit 14 and the water feed tank 11 are communicated by a recovering circuit 23. A 2nd circuit changeover means 29 for selectively connecting the dialysis device 2 to the water feed tank 11 and a plastic container 30 which is another water feed equipment on the outside of the truck 4 is disposed in the supply circuit 14.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dialysis machine, and more particularly to a portable dialysis machine which can move the entire machine.

2. Description of the Related Art Conventionally, a dialysis device for removing waste products from blood has been known (for example, Japanese Patent Publication No. 3-62108), and in such a conventional device, dialysis treatment is performed on a patient. The required amount of water is supplied from the water supply device to the dialysis device.

By the way, the above-mentioned conventional dialysis device is installed at a predetermined place for dialysis treatment, and water is supplied to the dialysis device from an existing water supply device such as tap water at the installation place. I am trying to do it. As described above, since the conventional dialysis device is fixedly provided at a predetermined place, it has not been considered to be used in a place where there is no existing water supply device such as water supply. However, there are cases where it is desired to perform dialysis treatment even in a place where there is no existing water supply device. Therefore, conventionally, a dialysis device that can be moved to any place has been demanded.

In view of the above circumstances, the present invention comprises a dialysis device for removing waste products from blood and a water supply device for supplying water in a water supply tank to the dialysis device. A first circuit switch capable of providing a dialysis device and a water supply device on a trolley so that the dialysis device can be moved and selectively connecting the dialysis device to the water supply tank or another water supply facility outside the trolley. Means are provided. Further, the present invention is the above-mentioned device, wherein the water supply device is a pump provided in a supply circuit that communicates the first circuit switching means and the water supply tank, and a pump for supplying water toward the dialysis device. A recovery circuit that connects the supply circuit and the water supply tank between the pump and the dialysis machine to recover excess water supplied from the pump to the water supply tank,
Furthermore, the second circuit switching means is provided in the supply circuit between the pump and the water supply tank, and is capable of selectively connecting the dialysis machine to the water supply tank or another water supply equipment outside the trolley. Is.

According to such a construction, the entire apparatus can be moved to an arbitrary place, and when there is an existing water supply facility such as water supply at the stopped place, the existing water supply facility is changed to a dialysis machine. Water can be supplied. Also,
On the other hand, where there is no existing water supply facility such as water supply, water can be supplied to the dialysis machine from the water supply tank on the trolley. Therefore, it is possible to provide a dialysis machine with higher versatility than the conventional one.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the illustrated embodiments. Referring to FIGS. 1 and 2, a portable dialysis machine 1 is equipped with a dialysis machine 2 for removing waste products from blood, and a rear surface of the dialysis machine 2 In addition, a water supply device 3 is provided integrally therewith, and water can be supplied from this water supply device 3 toward the dialysis device 2. In this embodiment, the dialysis device 2 and the water supply device 3 which are integrally formed are mounted on the carriage 4 so that the entire device can be moved to an arbitrary place. Since large casters 4a with stoppers are provided at four locations on the bottom surface of the carriage 4, the entire apparatus can be moved easily and can be reliably stopped at a predetermined position. Although not shown, the dialysis device 2 has a built-in dialyzer for removing waste products from blood and a dialysate container for supplying fresh dialysate to the dialyzer and collecting treated dialysate. ing. The dialysis device 2 includes a concentrated liquid A and a concentrated liquid B, which are stored in a plastic container and placed on the trolley 1, and the water supply device 3 described above.
The fresh dialysate is produced by mixing the water supplied from the above in the dialysate container. Such a configuration of the dialysis device 2 is known in, for example, Japanese Patent Publication No. 3-62108, and the detailed description thereof will be omitted. A support member 5 made of a pipe is horizontally attached to the front upper surface of the carriage 4 at a predetermined height, and the support member 5 supports a side portion of the poly container in which the concentrated liquids A and B are stored. , So that they will not fall off the trolley 4. Required instruments are arranged on the upper front side of the dialysis machine 2, and a stand 6 made of a pipe is attached to the right side surface of the dialysis machine 2 so as to face vertically upward. A plurality of radially projecting hooks 6a are formed on the upper end of the stand 6 so that a desired container or the like can be hung on the hooks 6a. In this embodiment, the lower part of the stand 6 is also used as a handle. Further, an inverted U-shaped handle 7 is attached to the left side surface of the dialysis device 2 opposite to the stand 6. Then, the operator can easily move the entire apparatus by gripping the stand 6 and the handle 7. Next, the water supply device 3 is provided with a water supply tank 11 for storing water in its casing, and a lid 12 provided on the upper end of the casing can be opened and closed to supply water to the water supply tank 11 from an upper opening. ing. A water quantity meter 13 for displaying the water level in the water supply tank 11 is provided outside the water supply tank 11 so that the stored water quantity in the water supply tank 11 can be confirmed from the outside. Then, in the inner space of the casing below the water supply tank 11, the water supply tank 11 and the dialysis device 2 are provided.
A supply circuit and the like are provided to connect with. That is, FIG.
As shown in FIG. 3, a first conduit 14 is provided below the water supply tank 11 as a supply circuit that connects the water supply tank 11 and the dialyzer 2. A pump 15 for supplying water from the water supply tank 11 to the dialyzer 2 is arranged at a required position of the first conduit 14, and the pump 1
A deaeration tank 16 is provided on the downstream side adjacent to No. 5, so that air contained in water is removed. In addition, in the first conduit 14 located between the degassing tank 16 and the dialysis device 2,
A first circuit switching means 17 is provided, which enables the dialysis device 2 to be selectively connected to the water supply tank 11 and a water supply facility (for example, water supply) outside the carriage 4. ing. The first circuit switching means 17 is
A required portion of the first conduit 14 is cut, a first connector 18 communicating with the dialysis device 2 is attached to one of the cut portions, and the water supply tank 11 is attached to the other of the cut portions.
And a second connector 19 leading to the. Then, a coupler 20 for connecting to both connectors 18 and 19
If both ends are connected, dialyzer 2 and water tank 1
1 is connected to the first, as indicated by the solid arrow.
Water can be supplied from the water supply tank 11 to the dialyzer 2 via the conduit 14 and the coupler 20. On the other hand, with one end of the coupler 20 connected to the first connector 18,
If the other end of the coupler 20 is detached from the second connector 19 and connected to the tap of the water supply outside the carriage 4, water is supplied from the water supply outside the carriage 4 to the dialyzer 2 instead of from the water supply tank 11. be able to. The second connector 19 of this embodiment is provided with a valve. Therefore, when the other end of the coupler 20 is connected to the second connector 19, water is allowed to flow through the second connector 19. When the other end of the coupler 20 is removed from 19, the water flow is blocked, so that no water leaks from the second connector 19. The first conduit 14 located between the degassing tank 16 and the second connector 19 is a second conduit 23 as a recovery circuit.
It is connected to the water supply tank 11 via the. An orifice 24 is provided in the second conduit 23, and excess water out of the water fed from the pump 15 to the dialysis device 1 is supplied to the water supply tank 11 through the second conduit 23 and the orifice 24. I am able to collect it. A first solenoid valve 25 is provided in the first conduit 14 on the upstream side of the pump 15, and the communication state between the water supply tank 11 and the dialysis device 2 is switched by opening and closing the first solenoid valve 25. I am able to do so.
One end of a third conduit 26 is connected to the first conduit 14 located between the pump 15 and the first solenoid valve 25, and a third connector 27 is provided at the other end of the third conduit 26. A second solenoid valve 28 is provided in the middle of the third conduit 26. In the present embodiment, the second circuit switching means 2 is controlled by the solenoid valves 25 and 28.
9, the dialysis device 2 can be selectively connected to the water supply tank 11 and the third connector 27 by the second circuit switching means 29. Normally, the above first
Since the solenoid valve 25 is open and the second solenoid valve 28 is closed, water can be supplied from the water supply tank 11 to the dialyzer 2. When the water level in the water supply tank 11 is lowered while the dialysis device 2 is performing dialysis treatment, a poly container 30 storing water is installed at a position adjacent to the third connector 27, and the poly container 30 is installed. The water in the poly container 30 can be supplied to the dialyzer 2 by connecting the third solenoid valve 30 and the third connector 27 and closing the first solenoid valve 25 while opening the second solenoid valve 28.
In that case, the first connector 18 is connected by the coupler 20.
It goes without saying that the second connector 19 and the second connector 19 are connected to each other. The degassing tank 16 and the water supply tank 11 have a fourth conduit 31.
An air discharge valve 32 is provided at a position adjacent to the degassing tank 16 in the fourth conduit 31 while being connected via the air discharge valve 32.
The discharge valve 32 is automatically opened when the amount of air extracted from the water supply in the degassing tank 16 reaches a predetermined amount, and the air in the degassing tank 16 is supplied into the water supply tank 11 through the fourth conduit 31. It is designed to be discharged to. In addition, the water supply tank 1
The water meter 13 provided in No. 1 is composed of a transparent transparent pipe and has a scale for confirming the water quantity at its required position. The lower end of the water meter 13 is connected to the bottom of the water tank 11, and the upper end of the water meter 13 is detachably held at the upper end position of the water tank 11 so as to be bent downward. Since the water meter 13 is configured as described above, when the water level in the water supply tank 11 exceeds a predetermined height, the water in the water supply tank 11 is drained via the water meter 13. Has become
Therefore, the water in the water supply tank 11 does not overflow. Further, when the dialysis treatment by the dialysis device 2 is completed, after releasing the holding state of the upper end of the water meter 13,
By positioning it below the water supply tank 11,
The water in the water supply tank 11 can be completely drained. Further, below the water supply tank 11, there is provided a fifth conduit 33 as a discharge circuit for discharging the treated waste liquid from the dialysis device 2, and a discharge port which is an end of the fifth conduit 33 has a first conduit 33. 4 connector 34 is attached. Thereby, when the portable dialysis apparatus 1 is used in a place where the existing waste liquid facility exists, the fourth connector 34 is connected to the existing waste liquid facility to discharge the treated waste liquid. On the other hand, when the portable dialyzer 1 is used in a place where there is no existing waste liquid facility, the fourth connector 34 is used.
Is connected to an empty plastic container, and the treated waste liquid is discharged to the plastic container. In addition, each connector 1 described above
As shown in FIG. 2, 8, 19, 27, and 34 are arranged in a horizontal row below the rear surface of the casing of the water supply tank 11. According to the above configuration, the entire device can be moved to an arbitrary place, so that the versatility of the device can be increased as compared with the conventional one. That is, for example, when there is no existing water supply facility at the place where the dialysis treatment is performed, the first connector 18 and the second connector 19 are connected by the coupler 20 as shown in FIG. At this time, the first solenoid valve 25 is opened and the second solenoid valve 28 is closed, so that the pump 15 is driven to drive the pump 15 from the water supply tank 11 via the first conduit 14 and the coupler 20. 2 can be supplied with water. At this time, the water supplied from the pump 15 is deaerated by the degassing tank 16, and the surplus water is collected in the water supply tank 11 via the second conduit 23 and the orifice 24. Next, when the water in the water supply tank 11 becomes insufficient while the dialysis device 2 performs the dialysis treatment on the patient in the above-described state, the operator can confirm the fact by the water meter 13. Then, at that time, a poly container 30 storing water is installed on a side portion of the water supply tank 11, the poly container 30 and the third connector 27 are connected by a coupler, and then the first solenoid valve 25 is closed. On the other hand, the second solenoid valve 28 is opened. As a result, the water in the plastic container 30 is transferred to the third conduit 26 and the first conduit 14.
It is fed to the dialysis device 2 via the. Further, at this time, since the surplus water is gradually collected in the water supply tank 11, the amount of water stored in the water supply tank 11 also increases accordingly. In this way, when the water in the plastic container 30 is almost exhausted, sufficient water will be stored in the water supply tank 11, which can be confirmed by the water meter 13. In this state, the second solenoid valve 28 is closed while the first solenoid valve 25 is opened, so that water can be supplied again from the water supply tank 11 to the dialysis device 2. Note that, as described above, the waste liquid during the dialysis treatment by the dialysis device 2 is adapted to be discharged from the 4 connector 34 to the existing waste liquid facility when the existing waste liquid facility is present. If there is no equipment, a poly container (not shown) is connected to the fourth connector 34 so that the waste liquid is discharged into the poly container. The operation described above has been described for the case where dialysis treatment is performed in a place where there is no existing water supply facility such as water supply.
If there is an existing water supply facility such as water supply at the place where the portable dialysis machine 1 is stopped, water can be directly supplied from the water supply facility to the dialysis machine 2. In that case, with the one end of the coupler 20 connected to the first connector 18, the other end of the coupler 20 may be removed from the second connector 19 and connected to the existing water supply or the like. As described above, according to the present embodiment, the entire apparatus can be moved to an arbitrary place, and when there is an existing water supply facility such as water supply at the stopped place, it can be used. Also,
Water can be supplied from the water supply device 3 on the trolley 4 to the dialysis device 2 where there is no existing water supply facility such as water supply.

As described above, according to the present invention, it is possible to provide a dialysis device having higher versatility than the conventional one.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention.

FIG. 2 is a right side view of FIG.

FIG. 3 is a schematic configuration diagram of a water supply device 3 shown in FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Portable dialysis device 2 Dialysis device 3 Water supply device 4 Truck 11 Water tank 14 First conduit (supply circuit) 15 Pump 17 First circuit switching means 23 Second conduit (recovery circuit) 29 Second circuit switching means

Front page continuation (72) Inventor Mitsutaka Ueda 3-3-13 Toyosaki, Kita-ku, Osaka-shi, Osaka Inside Nipro

Claims (2)

[Claims] 1. A dialysis device for removing waste products from blood and a water supply device for supplying water in a water supply tank to the dialysis device, wherein the dialysis device and the water supply device are provided on a trolley so that they can be moved. In addition, the water supply device is provided with a first circuit switching means capable of selectively connecting the dialysis device to the water supply tank or another water supply facility outside the trolley. 2. The water supply device is provided in a supply circuit that connects the first circuit switching means and a water supply tank to each other, and a pump for supplying water to the dialysis device, and the pump and the dialysis device. A recovery circuit for connecting the supply circuit and the water tank between the pump and the surplus water fed from the pump to the water tank, and further to the supply circuit between the pump and the water tank. The second circuit switching means, which is provided and is capable of selectively connecting the dialysis device to the water tank or another water supply facility outside the trolley, is provided with the second circuit switching means. Portable dialysis machine.